A drive pulley for a continuously variable transmission includes a fixed sheave and a movable sheave rotationally fixed relative to the fixed sheave. A housing is axially and rotationally fixed relative to the fixed sheave. At least one centrifugal actuator includes an arm pivotally connected to one
A drive pulley for a continuously variable transmission includes a fixed sheave and a movable sheave rotationally fixed relative to the fixed sheave. A housing is axially and rotationally fixed relative to the fixed sheave. At least one centrifugal actuator includes an arm pivotally connected to one of the movable sheave and the housing of the fixed sheave at a first pivot axis. The arm pivots away from the one of the movable sheave and the housing about the first pivot axis as a speed of rotation of the drive pulley increases and pushes against another one of the movable sheave and the housing thereby moving the movable sheave axially toward the fixed sheave. The arm is movable relative to the first pivot axis by pivoting the at least one arm about a second pivot axis. The second pivot axis is offset from the first pivot axis.
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1. A drive pulley for a continuously variable transmission comprising: a fixed sheave;a movable sheave axially movable relative to the fixed sheave, the movable sheave being rotationally fixed relative to the fixed sheave; andat least one centrifugal actuator including an arm pivotally connected to
1. A drive pulley for a continuously variable transmission comprising: a fixed sheave;a movable sheave axially movable relative to the fixed sheave, the movable sheave being rotationally fixed relative to the fixed sheave; andat least one centrifugal actuator including an arm pivotally connected to one of the movable sheave and a portion of the drive pulley axially and rotationally fixed the fixed sheave at a first pivot axis, the arm pivoting away from the one of the movable sheave and the portion of the drive pulley about the first pivot axis as a speed of rotation of the drive pulley increases, the arm pushing against another one of the movable sheave and the portion of the drive pulley as the arm pivots away from the one of the movable sheave and the portion of the drive pulley, thereby moving the movable sheave axially toward the fixed sheave, the arm being movable relative to the first pivot axis by pivoting the arm about a second pivot axis, the second pivot axis being offset from the first pivot axis, the second pivot axis being parallel to the first pivot axis,the arm having a head portion and a tail portion, the first pivot axis passing through the head portion, the tail portion having a point therein remaining at a constant distance from the first pivot axis as the arm moves relative to the first pivot axis by pivoting the arm about the second pivot axis. 2. The drive pulley of claim 1, wherein the second pivot axis passes through the point. 3. The drive pulley of claim 1, wherein the at least one centrifugal actuator further includes an eccentric disposed in an aperture of the arm, the eccentric being pivotable about the first pivot axis relative to the arm. 4. The drive pulley of claim 1, wherein the arm includes a first aperture and a second aperture, the first pivot axis passes through the first aperture, and the second pivot axis passes through the second aperture. 5. The drive pulley of claim 4, wherein the first aperture is oblong and adapted to cooperate with an eccentric disposed in the first aperture, the eccentric being pivotable about the first pivot axis relative to the arm. 6. The drive pulley of claim 5, wherein the at least one centrifugal actuator further includes an indexing member connected to the eccentric, the indexing member controlling the pivoting of the arm about the second pivot axis by pivoting the eccentric about the first pivot axis. 7. The drive pulley of claim 6, wherein the at least one centrifugal actuator further includes a locking member, the locking member selectively preventing the eccentric from rotating relative to the arm. 8. The drive pulley of claim 7, further comprising a fastener securing the locking member, the indexing member and the arm together. 9. The drive pulley of claim 8, wherein the second pivot axis is disposed at a center of gravity of the at least one centrifugal actuator. 10. An arm for a centrifugal adjustment system of a drive pulley for a continuously variable transmission, the arm comprising: a body having a head portion, a tail portion and a shoulder separating the head portion form the tail portion, the tail portion defining a cam surface;a first aperture is disposed in the head portion, the first aperture being oblong; anda second aperture is disposed in the tail portion. 11. An arm for a centrifugal adjustment system of a drive pulley for a continuously variable transmission, the arm comprising: a body having a head portion, a tail portion and a shoulder separating the head portion from the tail portion, the head portion having a first thickness, the tail portion having a second thickness, and the first thickness being smaller than the second thickness;a first aperture is disposed in the head portion, the arm being adapted for pivoting about a first axis as a speed of rotation of the drive pulley increases, the first axis extending through the first aperture; anda second aperture is disposed in the tail portion, the second aperture defining a second axis, the second axis being parallel to the first axis,the first and second thicknesses being measured in a direction parallel to the axes. 12. The arm of claim 10, wherein the second aperture is smaller than the first aperture. 13. A drive pulley for a continuously variable transmission comprising: a fixed sheave;a movable sheave axially movable relative to the fixed sheave, the movable sheave being rotationally fixed relative to the fixed sheave;at least one centrifugal actuator including an arm pivotally connected to one of the movable sheave and a portion of the drive pulley axially and rotationally fixed to the fixed sheave at a first pivot axis, the arm having an associated cam surface; andat least one follower associated with the cam surface of the at least one centrifugal actuator, the at least one follower being connected to the other one of the movable sheave and the portion of the drive pulley,the arm of the at least one centrifugal actuator pivoting about the first pivot axis as a speed of rotation of the drive pulley increases, the cam surface of the at least one centrifugal actuator pushing against the at least one follower as the cam surface pivots about the first pivot axis thereby moving the movable sheave axially toward the fixed sheave,the arm of the at least one centrifugal actuator being movable relative to the first pivot axis by pivoting the arm about a second pivot axis, the second pivot axis being offset from the first pivot axis, the second pivot axis being parallel to the first pivot axis, the second pivot axis passing through a center of gravity of the at least one centrifugal actuator. 14. The drive pulley of claim 13, wherein the second pivot axis is disposed in the arm of the at least one centrifugal actuator. 15. The drive pulley of claim 13, wherein the at least one centrifugal actuator further includes an eccentric disposed in an aperture of the arm, the eccentric being pivotable about the first pivot axis relative to the arm. 16. The drive pulley of claim 13, wherein the portion of the drive pulley is a housing axially and rotationally fixed to the fixed sheave. 17. The drive pulley of claim 1, further comprising a link secured to the arm, the link having a first aperture and a second aperture; and wherein the first pivot axis passes through the first aperture of the link and the second pivot axis passes through the second aperture of the link. 18. The drive pulley of claim 13, further comprising a link secured to the arm, the link having a first aperture and a second aperture; and wherein the first pivot axis passes through the first aperture of the link and the second pivot axis passes through the second aperture of the link. 19. A drive pulley for a continuously variable transmission comprising: a fixed sheave;a movable sheave axially movable relative to the fixed sheave, the movable sheave being rotationally fixed relative to the fixed sheave; andat least one centrifugal actuator including an arm pivotally connected to one of the movable sheave and a portion of the drive pulley axially and rotationally fixed to the fixed sheave at a first pivot axis, the arm pivoting away from the one of the movable sheave and the portion of the drive pulley about the first pivot axis as a speed of rotation of the drive pulley increases, the arm pushing against another one of the movable sheave and the portion of the drive pulley as the arm pivots away from the one of the movable sheave and the portion of the drive pulley, thereby moving the movable sheave axially toward the fixed sheave, the arm being movable relative to the first pivot axis by pivoting the arm about a second pivot axis, the second pivot axis being offset from the first pivot axis, the second pivot axis being parallel to the first pivot axis,the arm including a first aperture and a second aperture, the first pivot axis passing through the first aperture, and the second pivot axis passing through the second aperture. 20. The drive pulley of claim 19, wherein the second pivot axis is disposed in the arm. 21. The drive pulley of claim 19, wherein the at least one centrifugal actuator further includes an eccentric disposed in the first aperture of the arm, the eccentric being pivotable about the first pivot axis relative to the arm. 22. A drive pulley for a continuously variable transmission comprising: a fixed sheave;a movable sheave axially movable relative to the fixed sheave, the movable sheave being rotationally fixed relative to the fixed sheave;a housing axially and rotationally fixed relative to the fixed sheave; andat least one centrifugal actuator including: an arm including a head portion having a first aperture and a tail portion having a second aperture, the head portion being pivotally connected to one of the movable sheave and the housing about a first pivot axis passing through the first aperture, the arm pivoting away from the one of the movable sheave and the housing about the first pivot axis as a speed of rotation of the drive pulley increases, the arm pushing against another one of the movable sheave and the housing as the arm pivots away from the one of the movable sheave and the housing, thereby moving the movable sheave axially toward the fixed sheave, the arm being movable relative to the first pivot axis by pivoting the arm about a second pivot axis; anda link including a first aperture and a second aperture,the first pivot axis passing through the first aperture of the link, andthe second pivot axis passing through the second aperture of the arm and the second aperture of the link. 23. The drive pulley of claim 22, wherein the at least one centrifugal actuator further includes an eccentric disposed in the first aperture of the arm, the eccentric being pivotable about the first pivot axis relative to the arm. 24. The drive pulley of claim 1, wherein the portion of the drive pulley is a housing axially and rotationally fixed relative to the fixed sheave, the movable sheave being disposed axially between the housing and the fixed sheave. 25. The drive pulley of claim 1, further comprising a biasing member biasing the movable sheave axially away from the fixed sheave. 26. The drive pulley of claim 13, further comprising a biasing member biasing the movable sheave axially away from the fixed sheave. 27. The drive pulley of claim 19, wherein the portion of the drive pulley is a housing axially and rotationally fixed relative to the fixed sheave. 28. The drive pulley of claim 21, wherein the first aperture is oblong. 29. The drive pulley of claim 19, wherein the second pivot axis is spaced from a center of gravity of the at least one centrifugal actuator. 30. The drive pulley of claim 19, wherein a center of gravity of the at least one centrifugal actuator is disposed in the second aperture. 31. A drive pulley for a continuously variable transmission comprising: a fixed sheave;a movable sheave axially movable relative to the fixed sheave, the movable sheave being rotationally fixed relative to the fixed sheave; andat least one centrifugal actuator including: an arm including a head portion having a first aperture and a tail portion having a second aperture, the head portion being pivotally connected to one of the movable sheave and a portion of the drive pulley axially and rotationally fixed to the fixed sheave about a first pivot axis passing through the first aperture, the arm pivoting away from the one of the movable sheave and the portion of the drive pulley about the first pivot axis as a speed of rotation of the drive pulley increases, the arm pushing against another one of the movable sheave and the portion of the drive pulley as the arm pivots away from the one of the movable sheave and the portion of the drive pulley, thereby moving the movable sheave axially toward the fixed sheave, the arm being movable relative to the first pivot axis by pivoting the arm about a second pivot axis; anda link including a first aperture and a second aperture,the first pivot axis passing through the first aperture of the link, andthe second pivot axis passing through the second aperture of the arm and the second aperture of the link. 32. The drive pulley of claim 31, wherein the at least one centrifugal actuator further includes an eccentric disposed in the first aperture, the eccentric being pivotable about the first pivot axis relative to the head portion. 33. A drive pulley for a continuously variable transmission comprising: a fixed sheave;a movable sheave axially movable relative to the fixed sheave, the movable sheave being rotationally fixed relative to the fixed sheave; andat least one centrifugal actuator including an arm pivotally connected to one of the movable sheave and a portion of the drive pulley axially and rotationally fixed the fixed sheave at a first pivot axis, the arm pivoting away from the one of the movable sheave and the portion of the drive pulley about the first pivot axis as a speed of rotation of the drive pulley increases, the arm pushing against another one of the movable sheave and the portion of the drive pulley as the arm pivots away from the one of the movable sheave and the portion of the drive pulley, thereby moving the movable sheave axially toward the fixed sheave, the arm being movable relative to the first pivot axis by pivoting the arm about a second pivot axis, the second pivot axis being offset from the first pivot axis, the second pivot axis being parallel to the first pivot axis,the arm having a head portion and a tail portion, the first pivot axis passing through the head portion, the second pivot axis being disposed between the first pivot axis and an end of the tail portion in any position of the arm relative to the first pivot axis.
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